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    • 3. 发明授权
    • Relay device, wireless communications device, network system, program storage medium, and method
    • 中继设备,无线通信设备,网络系统,程序存储介质和方法
    • US08504833B2
    • 2013-08-06
    • US13189590
    • 2011-07-25
    • Satoru Yamaguchi
    • Satoru Yamaguchi
    • H04L9/32H01L29/06
    • H04W12/04H04L9/0841H04L9/0891H04L9/3213H04L63/0478H04L2209/80H04W12/02
    • A relay device first uses latest authentication data to determine whether request-authentication data transmitted from a wireless communications device is valid. If the latest authentication data is used to determine that the request-authentication data is valid, the relay device carries out relayed communications with the wireless communications device. If the latest authentication data is used to determine that the request-authentication data is invalid, the relay device next uses a former authentication data to determine whether the request-authentication data is valid. If the former authentication data is used to determine that the request-authentication data is valid, the relay device provides the wireless communications device with the latest authentication data to update authentication data in the wireless communications device.
    • 中继设备首先使用最新认证数据来确定从无线通信设备发送的请求认证数据是否有效。 如果使用最新的认证数据来确定请求认证数据有效,则中继设备执行与无线通信设备的中继通信。 如果使用最新的认证数据来确定请求认证数据无效,则中继设备接下来使用以前的认证数据来确定请求认证数据是否有效。 如果先前的认证数据用于确定请求认证数据有效,则中继设备向无线通信设备提供最新认证数据,以更新无线通信设备中的认证数据。
    • 4. 发明申请
    • RELAY DEVICE, WIRELESS COMMUNICATIONS DEVICE, NETWORK SYSTEM, PROGRAM STORAGE MEDIUM, AND METHOD
    • 继电器,无线通信设备,网络系统,程序存储介质和方法
    • US20120030466A1
    • 2012-02-02
    • US13189590
    • 2011-07-25
    • Satoru Yamaguchi
    • Satoru Yamaguchi
    • H04W12/06H04L9/32
    • H04W12/04H04L9/0841H04L9/0891H04L9/3213H04L63/0478H04L2209/80H04W12/02
    • A relay device first uses latest authentication data to determine whether request-authentication data transmitted from a wireless communications device is valid. If the latest authentication data is used to determine that the request-authentication data is valid, the relay device carries out relayed communications with the wireless communications device. If the latest authentication data is used to determine that the request-authentication data is invalid, the relay device next uses a former authentication data to determine whether the request-authentication data is valid. If the former authentication data is used to determine that the request-authentication data is valid, the relay device provides the wireless communications device with the latest authentication data to update authentication data in the wireless communications device.
    • 中继设备首先使用最新认证数据来确定从无线通信设备发送的请求认证数据是否有效。 如果使用最新的认证数据来确定请求认证数据有效,则中继设备执行与无线通信设备的中继通信。 如果使用最新的认证数据来确定请求认证数据无效,则中继设备接下来使用以前的认证数据来确定请求认证数据是否有效。 如果先前的认证数据用于确定请求认证数据有效,则中继设备向无线通信设备提供最新认证数据,以更新无线通信设备中的认证数据。
    • 7. 发明申请
    • EDGE DETECTION TECHNIQUE AND CHARGED PARTICLE RADIATION EQUIPMENT
    • 边缘检测技术和充电颗粒辐射设备
    • US20090226096A1
    • 2009-09-10
    • US12393321
    • 2009-02-26
    • Hitoshi NAMAIOsamu KomuroSatoru YamaguchiFumihiro Sasajima
    • Hitoshi NAMAIOsamu KomuroSatoru YamaguchiFumihiro Sasajima
    • G06K9/48
    • G06K9/4609G06T7/13
    • An object of the present invention is to provide an edge detection technique and equipment which are capable of stably detecting an edge by suppressing the influence of noise even in the case where the image is obtained by charged particle radiation equipment, such as a scanning electron microscope and has a low S/N ratio. More specifically, the present invention is to propose a technique and equipment which are configured to determine a peak position (edge) on the basis of the following two edge extraction techniques. That is, the present invention is to propose a technique and equipment wherein at least two peaks are formed by using, as edge detection techniques, for example, one peak detection technique having a relatively high sensitivity and the other peak detection technique which is relatively less susceptible to the influence of noise than the one peak detection technique, and wherein a position where the peaks coincide with each other is determined as a true peak position (edge position).
    • 本发明的目的是提供一种能够通过抑制噪声的影响来稳定地检测边缘的边缘检测技术和设备,即使在通过诸如扫描电子显微镜的带电粒子辐射设备获得图像的情况下 并具有较低的S / N比。 更具体地,本发明是提出一种被配置为基于以下两个边缘提取技术来确定峰值位置(边缘)的技术和设备。 也就是说,本发明提出一种技术和设备,其中通过使用作为边缘检测技术的至少两个峰形成例如具有相对较高灵敏度的一个峰值检测技术和相对较少的另一个峰值检测技术 容易受到噪声的影响而不是一个峰值检测技术,并且其中峰值彼此一致的位置被确定为真正的峰值位置(边缘位置)。
    • 8. 发明申请
    • Charged particle beam apparatus
    • 带电粒子束装置
    • US20070120065A1
    • 2007-05-31
    • US11599611
    • 2006-11-15
    • Atsushi TakaneSatoru YamaguchiMitsugu Sato
    • Atsushi TakaneSatoru YamaguchiMitsugu Sato
    • G01K1/08
    • H01J37/1471H01J37/265H01J2237/1501H01J2237/216H01J2237/28
    • A charged particle beam apparatus is provided which can prevent the accuracy of positional shift detection from being degraded owing to differences in picture quality, so that even when the state of a charged particle beam is changed at the time that optical conditions are changed or the optical axis changes with time, an auto adjustment of the optical axis can be realized easily and highly accurately. In the charged particle beam apparatus, evaluation or adjustment of focusing is conducted before the deflection condition of an alignment deflector for optical axis adjustment is changed or a table of focus adjustment amounts in correspondence with deflection conditions of the alignment deflector is provided, whereby when the deflection condition of the alignment deflector is changed, a focus adjustment is carried out in accordance with the table.
    • 提供一种带电粒子束装置,其可以防止由于图像质量的差异而导致的位置偏移检测的精度降低,使得即使当光学条件改变时带电粒子束的状态改变或光学条件改变时, 轴随时间变化,可以容易且高精度地实现光轴的自动调节。 在带电粒子束装置中,在用于光轴调节的对准偏转器的偏转状态改变之前进行聚焦的评估或调整,或者提供与对准偏转器的偏转条件相对应的焦点调整量表, 改变对准偏转器的偏转状态,根据该表进行焦点调整。